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an integrative approach that combines advanced multiomics, spatial transcriptomics, and structural biology with physiological assessments. By selectively perturbing key gene expression programs during homeostasis
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, in the mosaic team (Loïc Le Goff) and in collaboration with the Phyti team (Philippe Roudot). The combination of expertise in biology, optical engineering and data science, provides an ideal setting
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proposed in this project is to combine the advantages of both approaches, thanks to the synthesis of libraries of Ln-binding peptides. Indeed, the choice for a peptide scaffold enables a fast and modular
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enabling imaging at the patient's bedside. The project is highly interdisciplinary, combining expertise in medical imaging, image processing, AI and neuroscience. It targets perinatal neuroimaging, in
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to evaluate their performance. This project advantageously combines the expertise of electrochemists specializing in AORFBs (ISCR-MaCSE) with that of experts in the organic synthesis of quinone derivatives
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the optical features of the former can be combined with the catalytic and/or magnetic properties of the latter, while reducing overall costs.[1] Among these multi-functional materials, those possessing both
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conversion, combining electrochemistry, materials science and electrochemical engineering. The work will be developed within the EIP group (Electrochimie Interfaciale et Procédés) in the multiphysics and
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epigenetic and behavioral consequences of chronic prenatal exposure to VPA, topiramate, and lamotrigine. The project involves a multidisciplinary approach combining behavioral neuroscience, molecular biology
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eight teams of different sizes efficiently combines a good administrative gestion with high-level scientific activities, covering a large panel of disciplines in chemistry. The chemistry in Rennes has a
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a radical change in actin organization and dynamics in muscle cells. We aim to combine Drosophila genetics and in vivo imaging with actin biochemistry and in vitro actin imaging to understand how